Hard disk drive having disk protector and magnetic head protector

ABSTRACT

A hard disk drive includes a housing having a base plate and a cover plate, and a spindle motor installed on the base plate. At least one magnetic disk to store data is installed at the spindle motor and rotated by the spindle motor. An actuator is pivotably installed on the base plate and has a magnetic head to record data on the magnetic disk and to reproduce the data from the magnetic disk. At least one disk protector protrudes to a predetermined height toward the magnetic disk at a position corresponding to an edge portion of the magnetic disk where data is not recorded. A magnetic head protector protrudes to a predetermined height toward a suspension in a parking zone where the magnetic head is parked. The disk protector and the magnetic head protector are provided on an upper surface of the base plate and/or a lower surface of the cover plate. Thus, when an external impact is applied to the hard disk drive, the magnetic disk and the magnetic head are prevented from being damaged.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of Korean Application No.2002-24440, filed May 3, 2002 and Korean Application No. 2002-40992,filed Jul. 13, 2002, in the Korean Intellectual Property Office, thedisclosures of which are incorporated herein by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a hard disk drive and moreparticularly, to a hard disk drive having a disk protector and amagnetic head protector to protect a disk from an external impact.

2. Description of the Related Art

A hard disk drive (HDD), one of the types of auxiliary memory devices ofa computer, reads data stored in a magnetic disk or records data on themagnetic disk by using a magnetic head.

FIG. 1 is a perspective view showing a conventional hard disk drive.FIG. 2 is a vertical sectional view of the hard disk drive shown in FIG.1.

Referring to FIG. 1, a conventional hard disk drive includes a housing10, a spindle motor 30 installed in the housing 10 rotating a magneticdisk (hard disk) 20, and an actuator 40 having a magnetic head (notshown) recording data on the disk 20 and reproducing the data recordedon the disk 20.

The housing 10 is installed in a main body (not shown) of a computer(not shown) and includes a base plate 11 supporting both the spindlemotor 30 and the actuator 40 and a cover plate 12 coupled to an upperportion of the base plate 11 to enclose and protect the disk 20.Typically, the housing 10 is formed of stainless steel or aluminum.

The disk 20 is a recording medium on which data is recorded. One or aplurality of disks can be spaced a predetermined distance from oneanother. The disk 20 is rotated by the spindle motor 30 and includes aparking zone 21 provided at an inner circumferential side of the disk 20where a slider 42 having the magnetic head mounted thereon is disposedwhen power is turned off and a data zone 22 provided at an outercircumferential side of the parking zone 21 where magnetic signals arerecorded. Reference numeral 23 denotes a zone outside the data zone 22where data is not actually recorded.

The coupling structure of the housing 10, the spindle motor 30, and themagnetic disk 20 will be described in detail with reference to FIGS. 2and 3. The spindle motor 30 is supported by a flange 31, which isfixedly installed on the base plate 11. An upper end portion of a shaftof the spindle motor 30 is fixedly coupled to the cover plate 12 by ascrew 36. A bearing 32 a is provided around an outer circumference ofthe shaft 32 so that a hub 33 is rotatable. The disk 20 is insertedaround an outer circumference of the hub 33. When a plurality of disks20 are installed, a ring shaped spacer 34 is installed around the outercircumference of the hub 33 to maintain a gap between the disks 20. Aclamp 35 is coupled to an upper end portion of the hub 33 to prevent thedisk 20 from escaping.

Referring back to FIG. 1, the actuator 40 is pivotable around a pivotshaft 47 installed on the base plate 11 by a voice coil motor 48. Theactuator 40 includes an arm 46 coupled to the pivot shaft 47 to becapable of pivoting and a suspension 44 coupled to the arm 46 andsupporting the slider 42 having the magnetic head mounted thereon to beelastically biased toward a surface of the disk 20.

In the conventional hard disk drive having the above structure, theslider 42 is disposed in the parking zone 21 of the disk 20 by anelastic force of a suspension 44 when the power is turned off. When thepower is turned on, the disk 20 begins to rotate and a lifting force isgenerated by air pressure so that the slider 42 is lifted. The slider 42in a lifted state is moved to the data zone 22 of the disk 20 as the arm46 of the actuator 40 rotates. The slider 42, which is moved to the datazone 22 of the disk 20, maintains the lifted state at a height where thelifting force by the rotation of the disk 20 and the elastic force bythe suspension 44 are balanced. The magnetic head mounted on the slider42 records and reproduces data with respect to the disk 20 whilemaintaining a predetermined distance from the rotating disk 20.

However, when an impact is applied from an outside to the conventionalhard disk drive, the disk 20 installed in the housing 10 can either beshaken or warped. If Thus, since the outer circumferential side 23 ofthe disk 20 where no data is recorded contacts the base plate 11 or thecover plate 12, the data zone 22 of the disk 20 does not directlycontact the base plate 11 or the cover plate 12. However, if aprotruding eject pin, a bur, or a foreign material P exists on an uppersurface of the base plate 11 or a lower surface of the cover plate 12,corresponding to the data zone 22 of the disk 20, when the disk 20collides with the base plate 11 or the cover plate 12, the foreignmaterial P may contact the data zone 22 of the disk 20 so that the datazone 22 of the disk 20 may be damaged.

Further, when the suspension 44 in an elastically biased state is bentby an external impact in a direction opposite to a direction in whichthe elastic force is applied, as shown in FIG. 3, and bent back by anelastic restoring force to contact the surface of the disk 20, themagnetic head can be damaged by an impact between the magnetic headmounted on the slider 42 and the disk 20.

SUMMARY OF THE INVENTION

To solve the above and other problems, a hard disk drive is providedhaving a disk protector and a magnetic head protector provided at a baseplate and a cover plate to prevent damage to a data zone of the disk anda magnetic head by an external impact.

Additional aspects and/or advantages of the invention will be set forthin part in the description which follows and, in part, will be obviousfrom the description, or may be learned by practice of the invention.

According to an aspect, a hard disk drive comprises a housing having abase plate and a cover plate, a spindle motor installed on the baseplate, at least one disk storing data installed at the spindle motor androtated by the spindle motor, an actuator pivotally installed on thebase plate and having a magnetic head recording data on the disk andreproducing the data from the disk, at least one disk protectorprotruding to a predetermined height toward the disk at a positioncorresponding to an edge portion of the disk where the data is notrecorded, and a magnetic head protector protruding to a predeterminedheight toward a suspension in a parking zone where the magnetic head isparked, wherein the at least one disk protector and the magnetic headprotector are provided on an upper surface of the base plate and/or alower surface of the cover plate.

A protruding surface, protruding to a predetermined height toward thedisk, is formed on each of the upper surface of the base plate and thelower surface of the cover plate to reduce a gap between the disk andeach of the base plate and the cover plate, and the disk protector isformed on each protruding surface.

A plurality of the disk protectors is formed with a predeterminedinterval in a circumferential direction of the disk. Three diskprotectors are formed on each of the base plate and the cover plate.

The disk protector is formed to have a C shape in which a portioninterfering with the actuator is open to face an edge portion of thedisk.

A buffer member is provided on a surface of the disk protector facingthe disk. The buffer member is formed of a viscoelastic material havinga surface rigidity lower than that of the disk.

A buffer member is provided on a surface of the magnetic head protectorfacing the suspension.

BRIEF DESCRIPTION OF THE DRAWINGS

These and/or other aspects and advantages of the invention will becomeapparent and more readily appreciated from the following description ofthe preferred embodiments, taken in conjunction with the accompanyingdrawings of which:

FIG. 1 is an exploded perspective view of a conventional hard diskdrive;

FIG. 2 is a vertical sectional view of the hard disk drive of FIG. 1,showing a state in which a magnetic disk is damaged by an externalimpact;

FIG. 3 is a vertical sectional view of the hard disk drive of FIG. 1,showing a state in which a suspension is bent by an external impact;

FIG. 4 is an exploded perspective view of a hard disk drive having amagnetic disk and a magnetic head protector according to a firstembodiment of the present invention;

FIG. 5 is a vertical sectional view showing a portion where a diskprotector shown in FIG. 4 is provided when the magnetic disk is deformedby an external impact;

FIG. 6 is a vertical sectional view showing a portion where the magnetichead protector shown in FIG. 4 is provided when a suspension is deformedby an external impact;

FIG. 7 is an enlarged perspective view of the disk protector shown inFIG. 4; and

FIG. 8 is an exploded perspective view of a second hard disk drivehaving a disk protector and a magnetic head protector according to asecond embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

Reference will now made in detail to the present preferred embodimentsof the present invention, examples of which are illustrated in theaccompanying drawings, wherein like reference numerals refer to the likeelements throughout. The embodiments are described below in order toexplain the present invention by referring to the figures.

Referring to FIGS. 4 through 6, a hard disk drive having a diskprotector and a magnetic head protector according to a first embodimentof the present invention includes a housing 110 having a predeterminedinner space. In the housing 110, there is provided a spindle motor 130,a magnetic disc 120, an actuator 140, disk protectors 151 and 152, andmagnetic head protectors 153 and 154.

The housing 110 is installed in a main body (not shown) of a computer(not shown) and includes a base plate 111 supporting the spindle motor130 and the actuator 140 and a cover plate 112 coupled to an upperportion of the base plate 111 enclosing and protecting the magnetic disk120. The housing 110 is typically manufactured of stainless steel oraluminum. Protruding surfaces 111 a and 112 a protruding a predeterminedheight toward the magnetic disk 120 are formed on an upper surface ofthe base plate 111 and a lower surface of the cover plate 112,respectively. The protruding surfaces 111 a and 112 a reduce a diskfluttering by reducing a gap between the magnetic disk 120 and therespective base and cover plates 111 and 112. A portion of theprotruding surfaces 111 a and 112 a, which interferes with a rotation ofan arm 146 of the actuator 140, is removed and each of the protrudingsurfaces 111 a and 112 a forms a “C” shape.

One or a plurality of magnetic disks 120 is installed inside the housing110 as a recording medium to record data. A parking zone 121 where aslider 142 having a magnetic head (not shown) mounted thereon isdisposed when power is turned off is provided at an innercircumferential side of the magnetic disk 120. A data zone 122 where amagnetic signal is recorded is provided outside the parking zone 121.However, data is not recorded in a portion outside the data zone 122,that is, an edge portion 123 of the magnetic disk 120.

The spindle motor 130 rotating the magnetic disk 120 is fixedlyinstalled on the base plate 111. When a plurality of magnetic disks 120are installed on the spindle motor 130, a ring shaped spacer 132maintaining a gap between the magnetic disks 120 is inserted between themagnetic disks 120. A clamp 134 preventing the magnetic disks 120 fromescaping is coupled to an upper end portion of the spindle motor 130.

The actuator 140 to record data on the magnetic disk 120 or to read thedata recorded therefrom is installed on the base plate 111 and ispivotable. The actuator 140 includes the arm 146 pivotably coupled to apivot shaft 147 and a suspension 144 coupled to the arm 146 to supportthe slider 142 having the magnetic head elastically biased toward asurface of the magnetic disk 120.

In the hard disk drive, disk protectors 151 and 152 are provided as diskprotecting units to prevent a foreign material P from contacting thedata zone 122 of the magnetic disk 120 when the magnetic disk 120 isshaken or deformed by an external impact.

The disk protectors 151 and 152 protrude to a predetermined heighttoward the magnetic disk 120 at positions corresponding to the edgeportion 123 of the magnetic disk 120 from the protruding surfaces 111 aand 112 a of the base plate 111 and the cover plate 112, respectively.Three disk protectors 151 and 152 are respectively provided on each ofthe protruding surfaces 111 a and 112 a at intervals of about 90° alongthe circumference of the magnetic disk 120, as shown in FIG. 4. The diskprotector 151 formed on the protruding surface 111 a of the base plate111 and the disk protector 152 formed on the protruding surface 112 a ofthe cover plate 112 are arranged at positions corresponding to eachother. Further, unlike the above description, one of each of the diskprotectors 151 and 152 may be respectively provided on the protrudingsurfaces 111 a and 112 a and positioned opposite to the actuator 140, ortwo, four or more of each of the disk protectors 151 and 152 may berespectively provided at predetermined intervals in a circumferentialdirection of the magnetic disk 120.

Further, in the hard disk drive the magnetic head protectors 153 and 154are provided as a magnetic head protecting unit to prevent damage to themagnetic head mounted on the slider 142, when the suspension 144 isshaken or deformed and contacts the surface of the magnetic disk 120 byan external impact.

The magnetic head protectors 153 and 154, respectively, protrude to apredetermined height toward the suspension 144 at positions on the innersurfaces of the base plate 111 and the cover plate 112 corresponding toa position of the suspension 144 in the parking zone 121 of the magneticdisk 120. The magnetic head protector 153 formed on the base plate 111and the magnetic head protector 154 formed on the cover plate 112 arearranged at positions corresponding to each other.

As the magnetic head protectors 153 and 154 are formed to protrude frominner surfaces of the base plate 111 and the cover plate 112,respectively, a displacement of the suspension 144 by the externalimpact is restricted. Thus, as shown in FIG. 6, even when the suspension144 is deformed by the external impact, since the displacement thereofis reduced by the magnetic head protectors 153 and 154, an amount ofimpact applied to the magnetic disk 120 by the magnetic head mounted onthe slider 142 through a restoring force from the suspension 144 isreduced so that the magnetic head is protected.

The disk protectors 151 and 152 and the magnetic head protectors 153 and154 may be integrally formed with the base plate 111 and the cover plate112, respectively. By integrally forming the disk protectors 151 and 12and the magnetic head protectors 153 and 154, a manufacturing process issimplified and manufacturing costs are reduced by simultaneously formingthe disk protectors 151 and 152 and the magnetic head protectors 153 and154 when the base plate 111 and the cover plate 112 are manufactured.However, the disk protectors 151 and 152 and the magnetic headprotectors 153 and 154 may be fixedly installed onto the protrudingsurfaces 111 a and 112 a of the base plate 111 and the cover plate 112after the disk protectors 151 and 152 and the magnetic head protectors153 and 154 are manufactured as supplementary members.

FIG. 7 is an enlarged perspective view of the disk protector 151 shownin FIG. 4. Although FIG. 7 shows only the disk protector 151 formed onthe protruding surface 111 a of the base plate 111, the disk protector152 formed on the cover plate 112 and the magnetic head protectors 153and 154 are not shown since they have an identical shape.

As shown in FIG. 7, a buffer member 151 a may be provided at a surfaceof the disk protector 151 to be positioned towards the magnetic disk 120so that the magnetic disk 120 contacts the buffer member 151 a when themagnetic disk 120 is shaken or warped. The buffer member 151 a haselasticity and a rigidity of the buffer member 151 a that is lower thanthat of the surface of the magnetic disk 120 and is formable of aviscoelastic material such as natural rubber or synthetic rubber. Thebuffer member 151 a prevents damage on the surface of the magnetic disk120 by absorbing an external impact when the magnetic disk 120 collidesagainst the disk protector 151 from the external impact, and ageneration of particles caused by the damage on the surface of themagnetic disk 120. If the particles are generated from the damage to thesurface of the magnetic disk 120, not only is the data zone 122 of themagnetic disk 120 damaged, but a performance of the magnetic head fordata to record and to reproduce data is lowered. Thus, to prevent thegeneration of the particles if possible is preferable.

FIG. 8 is an exploded perspective view of a second hard disk drivehaving a disk protector and a magnetic head protector according to asecond embodiment of the present invention. Here, the same referencenumerals as those in FIG. 4 indicate the same elements.

Referring to FIG. 8, disk protectors 251 and 252 are formed to face anentire edge portion 123 of the magnetic disk 120, except for a range inwhich the actuator 140 operates. That is, the disk protectors 251 and252 are formed to have a “C” shape having an open portion interferingwith the arm 146 of the actuator 140. The installation operation andoperation of the disk protectors 251 and 252 in this embodiment are thesame as those in the above-described previous embodiment. Also, in thisembodiment, a buffer member may be provided on a surface of each of themagnetic disk protectors 251 and 252 facing the disk 120, as shown inFIG. 7.

As described above, when an external impact is applied to a hard diskdrive so that the magnetic disk is shaken or warped, since a data zoneof the magnetic disk is prevented from contacting a base plate or acover plate by the disk protectors, the data zone of the magnetic diskis prevented from being damaged. Further, since an amount ofdisplacement of a suspension is restricted by a magnetic head protector,an amount of impact between a magnetic head and the magnetic disk isreduced so that the magnetic head is prevented from being damaged.

Although a few preferred embodiments of the present invention have beenshown and described, it would be appreciated by those skilled in the artthat changes may be made in this embodiment without departing from theprinciples and spirit of the invention, the scope of which is defined inthe claims and their equivalents. For example, although the diskprotectors in the embodiments are provided on the protruding surfaces ofthe base plate and the cover plates, the disk protectors can be appliedto a base plate and a cover plate where the protruding surfaces are notformed as shown in FIG. 1.

1. A hard disk drive comprising: a housing having a base plate and acover plate; a spindle motor installed on the base plate; at least onedisk to store data installed at the spindle motor and rotated by thespindle motor; an actuator pivotably installed on the base plate andhaving a magnetic head to record data on the at least one disk and toreproduce the data from the at least one disk; one or more diskprotectors protruding to a predetemined height toward a correspondingdisk at a position corresponding to an edge portion thereof where datais not recorded; a magnetic head protector protruding to a predeterminedheight toward a suspension in a parking zone where the magnetic head isparked; and a protruding surface protruding to a predetermined heighttoward the corresponding disk formed on each of the upper surface of thebase plate and the lower surface of the cover plate to reduce a gapbetween the corresponding disk and each of the base plate and the coverplate, wherein the one or more disk protectors are formed on each of theprotruding surfaces, and wherein the one or more disk protectors and themagnetic head protector are provided on the upper surface of the baseplate and/or the lower surface of the cover plate.
 2. The hard diskdrive as claimed in claim 1, wherein a plurality of the disk protectorsis formed with a predetermined interval therebetween in acircumferential direction of the corresponding disk.
 3. The hard diskdrive as claimed in claim 2, wherein three disk protectors are formed oneach of the base plate and the cover plate.
 4. The hard disk drive asclaimed in claim 1, wherein a plurality of the disk protectors is formedwith a predetermined interval therebetween in a circumferentialdirection of the corresponding disk.
 5. The hard disk drive as claimedin claim 4, wherein three disk protectors are formed on the protrudingsurfaces corresponding to each of the base plate and the cover plate. 6.The hard disk drive as claimed in claim 1, wherein the disk protectorsare formed to have a C shape in which a portion interfering with theactuator is open to face an edge portion of the disk.
 7. The hard diskdrive as claimed in claim 1, wherein the disk protectors are formed tohave a C shape in which a portion interfering with the actuator is opento face an edge portion of the disk.
 8. The hard disk drive as claimedin claim 1, wherein the one or more disk protectors each comprises: abuffer member provided on a surface thereof to face the correspondingdisk.
 9. The hard disk drive as claimed in claim 8, wherein the buffermember is formed of a viscoelastic material having a surface rigiditylower than that of the corresponding disk.
 10. The hard disk drive asclaimed in claim 1, wherein the one or more disk protectors eachcomprise: a buffer member provided on a surface thereof to face thecorresponding disk.
 11. The hard disk drive as claimed in claim 10,wherein the buffer member is formed of a viscoelastic material having asurface rigidity lower than that of the corresponding disk.
 12. The harddisk drive as claimed in claim 1, wherein the magnetic head protectorcomprises: a buffer member provided on a surface of the magnetic headprotector to face the suspension.
 13. The hard disk drive as claimed inclaim 12, wherein the buffer member is formed of a viscoelastic materialhaving a surface rigidity lower than that of the corresponding disk. 14.The hard disk drive as claimed in claim 1, wherein the magnetic headprotector comprises: a buffer member provided on a surface of themagnetic head protector to face the suspension.
 15. The hard disk driveas claimed in claim 14, wherein the buffer member is formed of aviscoelastic material having a surface rigidity lower than that of thecorresponding disk.